Degradation studies of solvents
Solvent studies is essential in the work with developing post combustion CO2 capture technologies. Solvent degradation may lead to a significant loss of solvent performance (solvent losses, corrosion problems etc.) and also lead to a negative environmental impact (emissions to air, production of special waste).
High Throughput laboratory - Oslo
The High Throughput laboratory can be divided in three main activates: 1) design and construction of high-throughput equipment, 2) parallel synthesis of materials, and 3) parallel screening of materials properties. We provide automated custom made high precisions equipment for a wide range of applications. Development and application of combinatorial and parallel approaches are used to accelerate the research and development of a large number of industrially relevant processes.
Laboratory for Nuclear Magnetic Resonance (NMR) spectroscopy
NMR (Nuclear Magnetic Resonance) spectroscopy is essential i many fields of research and science like e.g. chemistry, physics, biochemistry, and medicine. The method exploits the magnetic properties of the atomic nuclei and depending upon usage NMR methods may give information about structure, dynamics, and chemical surroundings of atoms, molecules and solid matter.
Laboratory for production and testing of polymer membranes
Membrane technology is environmentally friendly and one of the most promising future separation technologies, especially for CO2 capture since no chemicals involved, no secondary pollutants are emitted from the capture plant. Compact membrane modules and simple process can not only offer a small footprint, low capital and operation cost, but also operation flexibility and simple up- and down- scaling.
Laboratory for solvent characterization and phase equilibrium measurements
The laboratory performs measurements of thermodynamic properties for solvents used for purification of various industrial gases. This includes phase equilibria, solubility of CO2, H2S and hydrocarbons in different solutions, reaction enthalpy, specific heat capacity and thermal conductivity. In addition, reaction kinetics for CO2 and physical properties, like viscosity and density, are measured for different solvents.